ELECTRONIC AND TELECOMMUNICATION ENGINEERING

Transcription

1 ELECTRONIC AND TELECOMMUNICATION ENGINEERING Electronic and Telecommunication Engineering program was first established by Department of Electronic and Telecommunication Engineering in the Faculty of Engineering, King Mongkut s University of Technology Thonburi. The undergraduate curriculum of Electronics and Telecommunication Engineering : is designed to give students a sound knowledge of Engineering fundamentals, strong physical sciences background and adequate practical training so that they will be ready to quickly achieve competence in treating current technical problems as well as those that will come with the rapidly changing technologies of the year-to-come. The Electronic and Telecommunication Engineering program prepares students for careers in such areas of electronics, computer, communication, ect. The bachelor degree program is designed with courses in the foundation of electrical engineering, principles, designs and applications analog and digital electronics principles and applications of microprocessors and computers, industrial electronics, communication theory, and telecommunication. The supporting courses outside Electronics and Telecommunication Engineering consist of a strong background in mathematics, physical sciences, social sciences and humanities.

2 ELECTRONIC & TELECOMMUNICATION ENGINEERING PROGRAM TITLE DEGREE TITLE Bachelor of Engineering Program in Electronic and Telecommunication Engineering Bachelor of Engineering (Electronic and Telecommunication Engineering) B. Eng. (Electronic and Telecommunication Engineering) PROGRAM STRUCTURE Four - year Transfer 1. General Education Courses 36 Credits 23 Credits 1.1 Social Sciences and Humanities 13 Credits 3 Credits 1.2 Linguistics 9 Credits 6 Credits 1.3 Sciences and Mathematics 14 Credits 14 Credits 2. Field of Specialization Course 106 Credits 91 Credits 2.1 Basic Engineering 29 Credits 27 Credits 2.2 Core Course 58 Credits 45 Credits 2.3 Elective Course 19 Credits 19 Credits 3. Free Elective Course not less than 6 Credits 6 Credits Total Program Credits 148 Credits 120 Credits 244 The Undergraduate Bulletin

3 Curriculum Four-year Transfer 1. General Education Courses 36 Credits 23 Credits 1.1 Social Sciences and Humanities 13 Credits 3 Credits SSC 101 Physical Education * 1 ( ) SSC 210 Man and Ethics for Quality of Life 3 ( ) SSC 260 Introduction to Social Sciences 3 ( ) SSC 290 Environment and Development 3 ( ) SSC xxx Social Science and Humanities Elective 3 ( ) The student select 1 Course from the following Courses SCC 162 Society and Culture 3 ( ) SSC 211 General Philosophy 3 ( ) SSC 212 Introduction to Ethics 3 ( ) SSC 213 Introduction to Logic 3 ( ) SSC 221 History of Civilization 3 ( ) SSC 231 General Psychology 3 ( ) SSC 241 Principle of Political Science 3 ( ) SSC 251 Principles of Jurisprudence 3 ( ) SSC 261 Human and Society 3 ( ) SSC 271 Managerial Accounting 3 ( ) SSC 272 Production Cost 3 ( ) SSC 281 Economics 3 ( ) SSC 311 Buddhist Philosophy 3 ( ) SSC 331 Human Relations 3 ( ) SSC 333 Industrial and Organizational Psychology 3 ( ) SSC 334 Psychology of Adjustment 3 ( ) SSC 335 Managerial Psychology 3 ( ) SSC 351 Labor Law 3 ( ) SSC 371 Marketing 3 ( ) SSC 372 Personnel Management 3 ( ) SSC 373 Management for Small and Medium Enterprises 3 ( ) 1.2 Linguistics 9 Credits 6 Credits LNG 101 Fundamental English I 3 ( ) LNG 102 Fundamental English II 3 ( ) LNG 103 Fundamental English III 3 ( ) LNG 104 Content based Language Learning I * 3 ( ) Note 1. Student must earn core courses 9 credits. 2. Student must to pass a Placement Test to divide two group. The Undergraduate Bulletin

4 Group A : LNG 101, LNG 102 and LNG 103 Group B : LNG 102, LNG 103 and LNG 104 Student must earn the compulsory course within two years after that student select elective. LNG 104 for Group A LNG 201, 202, 203, 411, 412 LNG xxx Elective 3 ( ) The student select 1 course from the following courses LNG 201 Content based Language Learning II 3 ( ) LNG 202 Advanced academic skills 3 ( ) LNG 203 Oral communication I 3 ( ) LNG 411 English for Employment 3 ( ) LNG 412 English for Professional Environments 3 ( ) For Transfer Student LNG 102 Fundamental English II 3 ( ) LNG 103 Fundamental English III 3 ( ) Note : 1. Transfer program students must study 2 subjects are LNG 102, LNG Transfer program students study LNG 101 in summer session for a month before the first semester begin. 1.3 Sciences and Mathematics 14 Credits 14 Credits CHM 103 Fundamental Chemistry 3 ( ) CHM 160 Chemistry Laboratory 1 ( ) PHY 103 General Physics I 3 ( ) PHY 191 General Physics Laboratory I 1 ( ) MTH 101 Calculus and Analytic Geometry I 3 ( ) MTH 102 Calculus and Analytic Geometry II 3 ( ) 2. Field of Specialization Courses 106 Credits 91 Credits 2.1 Basic Engineering 29 Credits 27 Credits CPE 100 Computer Programming for Engineers 3 ( ) MTH 201 Linear Algebra and Vector Calculus 3 ( ) MTH 202 Differential Equations 3 ( ) MTH 302 Statistics for Engineering 3 ( ) MEE 111 Engineering Drawing 3 ( ) MEE 224 Engineering Mechanics 3 ( ) PRE 103 Production Technology * 2 ( ) PRE 290 Industrial Organizations and Management 3 ( ) PRE 380 Engineering Economics 3 ( ) MEN 111 Engineering Materials 3 ( ) 246 The Undergraduate Bulletin

5 2.2 Core Courses 58 Credits 45 Credits Basic Electronics and Electrical Engineering 16 Credits 6 Credits EEE 117 Electrical Power Laboratory * 1 ( ) ENE 104 Electric Circuit Theory 3 ( ) ENE 201 Electrical Systems and Safety * 3 ( ) ENE 205 Electronic Engineering Practices * 1 ( ) ENE 207 Basic Electrical and Electronic Laboratory * 1 ( ) ENE 208 Electronic Engineering Mathematics 3 ( ) ENE 209 Computer Applications for Electronics and Telecommunication * 1 ( ) ENE 215 Electromechanical Energy Conversion * 3 ( ) Electronics 10 Credits 9 Credits ENE 210 Electronics Devices and Circuit Design I 3 ( ) ENE 211 Electronics Devices and Circuit Design II 3 ( ) ENE 311 Physics of Electronics Material & Devices I 3 ( ) ENE 312 Electronics Engineering Laboratory * 1 ( ) Telecommunication 12 Credits 12 Credits ENE 221 Principles of Communication Systems 3 ( ) ENE 325 Electromagnetic Fields and Waves 3 ( ) ENE 326 Electronics Communication 3 ( ) ENE 327 Random Signals and Stochastic Processes 3 ( ) Digital and Microprocessors 7 Credits 7 Credits ENE 231 Digital Circuits and Logic Design 3 ( ) ENE 334 Microprocessors 3 ( ) ENE 335 Digital Circuit and Microprocessor Laboratory 1 ( ) Control, Measurement and Instrumentation 6 Credits 6 Credits ENE 240 Electrical and Electronic Measurements 3 ( ) ENE 341 Linear Control Systems 3 ( ) Seminar, Training & Project 7 Credits 7 Credits ENE 370 Seminar 1 ( ) ENE 371 Industrial Training 2 (S / U) ENE 475 Electronic and Telecommunication Engineering Project Study 1 ( ) ENE 476 Electronic and Telecommunication Engineering Project 3 ( ) The Undergraduate Bulletin

6 2.3 Elective Courses 19 Credits 19 Credits Core Elective 1 Credits 1 Credits ENE 314 Advance Electronics Laboratory 1 (0-3- 2) ENE 324 Communication and TelecommunicationLaboratory 1 (0-3- 2) Electronics and Telecommunication Engineering Core Elective 18 Credits 18 Credits A. Electronics and Telecommunication Engineering ENE 410 Physics of Electronic Materials and Devices II 3 ( ) ENE 412 Industrial Electronics 3 ( ) ENE 413 Power Electronics 3 ( ) ENE 414 Audio System Design 3 ( ) ENE 415 Avionics Systems 3 ( ) ENE 421 Communication Network 3 ( ) ENE 424 Mobile Communication Systems 3 ( ) ENE 425 CDMA Systems for Wireless Communication 3 ( ) ENE 426 Introduction to Radar System 3 ( ) ENE 430 Microprocessor-base System Design 3 ( ) ENE 431 Digital Computer System Design 3 ( ) ENE 432 Digital Function Analysis 3 ( ) ENE 433 VLSI Technology 3 ( ) ENE 434 Digital System Design and Implementation 3 ( ) ENE 441 Industrial Computer Systems 3 ( ) ENE 442 Robot Engineering 3 ( ) ENE 461 Introduction to Digital Image Processing 3 ( ) ENE 462 Information Theory 3 ( ) ENE 463 Software Engineering 3 ( ) ENE 490 Special Topic in Electrical Engineering 3 ( ) B. Engineering ENE 411 Electronic Product Design 3 ( ) ENE 416 RF Circuit Design 3 ( ) ENE 420 Telecommunication Engineering 3 ( ) ENE 422 Data Communications 3 ( ) ENE 423 Optical Communications 3 ( ) ENE 427 Satellite Communications 3 ( ) ENE 428 Microwave Engineering 3 ( ) ENE 429 Antenna and Transmission Line Theory 3 ( ) ENE 440 Process Control and Instrumentation 3 ( ) ENE 460 Digital Signal Processing 3 ( ) 3. Free Elective Courses 6 Credits 6 Credits XXX xxx Free Elective 3 ( ) XXX xxx Free Elective 3 ( ) At least six credits of free electives can be chosen from any course offered by King Mongkut s University of Technology Thonburi. * The transfer program except 248 The Undergraduate Bulletin

7 STUDY PLAN For Four - year Program First Year First Semester MEE 111 Engineering Drawing 3 ( ) CPE 100 Computer Programming for Engineers 3 ( ) LNG 101 Fundamental English I 3 ( ) OR LNG 102 Fundamental English II MTH 101 Calculus and Analytic Geometry I 3 ( ) PHY 103 General Physics I 3 ( ) PHY 191 General Physics Laboratory I 1 ( ) SSC 101 Physical Education 1 ( ) PRE 103 Production Technology 2 ( ) Total 19 ( ) Hours / Week = 62 Second Semester ENE 104 Electric Circuit Theory 3 ( ) CHM 103 Fundamental Chemistry 3 ( ) CHM 160 Chemistry Laboratory I 1 ( ) LNG 102 Fundamental English II 3 ( ) OR LNG 103 Fundamental English III MEE 224 Engineering Mechanics 3 ( ) MTH 102 Calculus and Analytic Geometry II 3 ( ) MEN 111 Engineering Materials 3 ( ) Total 19 ( ) Hours / Week = 60 The Undergraduate Bulletin

8 Second Year First Semester ENE 201 Electrical Systems and Safety 3 ( ) ENE 205 Electronic Engineering Practices 1 ( ) ENE 210 Electronics Devices and Circuit Design I 3 ( ) ENE 215 Electromechanical Energy Conversion 3 ( ) ENE 231 Digital Circuits and Logic Design 3 ( ) LNG 103 Fundamental English III 3 ( ) OR LNG 104 Content based Language Learning I MTH 201 Linear Algebra and Vector Calculus 3 ( ) Total 19 ( ) Hours / Week = 60 Second Semester EEE 117 Electrical Power Laboratory 1 ( ) ENE 207 Basic Electrical and Electronic Lab. 1 ( ) ENE 208 Electronic Engineering Mathematics 3 ( ) ENE 209 Computer Applications for Electronics and Telecommunication 1 ( ) ENE 211 Electronics Devices and Circuit Design II 3 ( ) ENE 240 Electrical and Electronic Measurements 3 ( ) ENE 221 Principles of Communication Systems 3 ( ) MTH 202 Differential Equations 3 ( ) Total 18 ( ) Hours / Week = The Undergraduate Bulletin

9 Third Year First Semester ENE 312 Electronics Engineering Laboratory 1 ( ) ENE 325 Electromagnetic Fields and Waves 3 ( ) ENE 326 Electronics Communication 3 ( ) ENE 334 Microprocessors 3 ( ) ENE 341 Linear Control Systems 3 ( ) MTH 302 Statistics for Engineering 3 ( ) SSC 210 Man and Ethics for Quality of Life 3 ( ) OR SSC 260 Introduction to Social Sciences 3 ( ) Total 19 ( ) Hours / Week = 59 Second Semester ENE 311 Physics of Electronics Material and Devices I 3 ( ) ENE 314 Advance Electronics Laboratory 1 ( ) OR ENE 324 Communication and Telecommunication Laboratory ENE 335 Digital Circuit and Microprocessor Lab. 1 ( ) ENE 370 Seminar 1 ( ) ENE xxx Elective 3 ( ) ENE 327 Random Signals and Stochastic Processes 3 ( ) PRE 290 Industrial Organizations and Management 3 ( ) SSC 210 Man and Ethics for Quality of Life 3 ( ) OR SSC 260 Introduction to Social Sciences 3 ( ) Total 18 ( ) Hours / Week = 61 Summer Session ENE 371 Industrial Training 2 (S / U) The Undergraduate Bulletin

10 Fourth Year First Semester ENE 475 Electronic and Telecommunication Engineering Project Study 1 ( ) ENE xxx Elective 3 ( ) ENE xxx Elective 3 ( ) ENE xxx Elective 3 ( ) ENE xxx Elective 3 ( ) ENE xxx Elective 3 ( ) XXX xxx Free Elective 3 ( ) Total 19 ( ) Hours / Week = 59 Second Semester ENE 476 Electronic and Telecommunication Engineering Project 3 ( ) PRE 380 Engineering Economics 3 ( ) SSC 290 Environment and Development 3 ( ) SSC xxx Social Science and Humanities Elective 3 ( ) XXX xxx Free Elective 3 ( ) Total 15 ( ) Hours / Week = The Undergraduate Bulletin

11 For Transfer Program First Year First Semester CPE 100 Computer Programming for Engineering Engineering 3 ( ) LNG 102 Fundamental English II 3 ( ) MTH 101 Calculus and Analytic Geometry I 3 ( ) PHY 103 General Physics I 3 ( ) PHY 191 General Physics Laboratory I 1 ( ) ENE 231 Digital Circuits and Logic Design 3 ( ) MEE 111 Engineering Drawing 3 ( ) ENE 210 Electronics Devices and Circuit Design I 3 ( ) Total 22 ( ) Hours / Week = 61 Second Semester ENE 104 Electric Circuit Theory 3 ( ) CHM 103 Fundamental Chemistry 3 ( ) CHM 160 Chemistry Laboratory I 1 ( ) LNG 103 Fundamental English III 3 ( ) ENE 221 Principle of Communication Systems 3 ( ) ENE 208 Electronic Engineering Mathematics 3 ( ) ENE 327 Random Signal and Stochastic Processes 3 ( ) MTH 102 Calculus and Analytic Geometry II 3 ( ) Total 22 ( ) Hours / Week = 60 The Undergraduate Bulletin

12 Second Year First Semester ENE 240 Electrical and Electronic Measurements 3 ( ) ENE 326 Electronics Communication 3 ( ) ENE 334 Microprocessors 3 ( ) ENE 341 Linear Control Systems 3 ( ) MTH 202 Differential Equations 3 ( ) SSC 210 Man and Ethics for Quality of Life 3 ( ) Total 18 ( ) Hours / Week = 55 Second Semester ENE 211 Electronics Devices and Circuit Design II 3 ( ) ENE 311 Physics of Electronics Material & Devices I 3 ( ) MEE 224 Engineering Mechanics 3 ( ) MEN 111 Engineering Materials 3 ( ) ENE 335 Digital Circuit and Microprocessor Lab. 1 ( ) PRE 290 Industrial Organizations and Management 3 ( ) Total 19 ( ) Hours / Week = 58 Summer Session ENE 325 Electromagnetic Fields and Waves 3 ( ) Total 3 ( ) Hours / Week = The Undergraduate Bulletin

13 Third Year First Semester ENE 475 Electronic and Telecommunication Engineering Project Study 1 ( ) ENE xxx Elective 3 ( ) ENE xxx Elective 3 ( ) ENE xxx Elective 3 ( ) ENE xxx Elective 3 ( ) MTH 302 Statistics for Engineering 3 ( ) XXX xxx Free Elective 3 ( ) Total 19 ( ) Hours / Week = 59 Second Semester ENE 314 Advance Electronics Laboratory 1 ( ) OR ENE 324 Communication and Telecommunication Laboratory ENE 476 Electronic and Telecommunication Engineering Project 3 ( ) ENE xxx Elective 3 ( ) ENE xxx Elective 3 ( ) PRE 380 Engineering Economics 3 ( ) SSC 290 Environment and Development 3 ( ) XXX xxx Free Elective 3 ( ) Total 19 ( ) Hours / Week = 65 * Subjects taught in English The Undergraduate Bulletin

14 COURSE DESCRIPTIONS ENE 104 Electric Circuit Theory 3 ( ) Prerequisite : none Electrical units and definitions : Voltage, Current, Power and Energy. Circuit Elements : Resistors, Capacitors, Inductors, Independent and Dependent Sources, Lumped Circuits, Wye- Delta transformation. Circuit Theory and analysis methods: Kirchhoffs laws, voltage and current divider, Node and Mesh analysis, Thevenin and Norton theorem, Maximum power transfer, Superposition theorem, Two Port circuits analysis. Sinusoidal Steady State Analysis: sinusoid properties, Complex Number Representations, Phasors, Circuit Theory and analyst is method in AC circuits, power calculations, 3-phase AC circuits analysis. ENE 201 Electrical Systems and Safety 3 ( ) Prerequisite : none Generation, transmission and distribution of electrical energy systems. Selection of wire and cable conductor according to permissible against physical damage temperature rise and voltage drop. Wiring regulations for electrical damage temperature rise and voltage drop. Wiring regulations for electrical installation. Electrical installation in industrial and building relate to safety; panel board, metering equipment fuses and circuit balances protection of conductor against overloads, motors and electric shock, grounding systems calculation and design considerations for office building and industrial lighting. ENE 204 Electrical and Electronics Drawing 1 ( ) Prerequisite : none A course of both theory and practices on drawing of electrical and electronics engineering : various electrical and electronic symbols, schematic diagrams, using computer-aided design. ENE 205 Electronics Engineering Practices 1 ( ) Prerequisite : ENE 104 A course of practice designed on basic measurement using multimeter and oscilloscope, Programmable Logic Controller (PLC) and Printed Circuit Board (PCB). ENE 207 Basic Electrical and Electronics Laboratory Prerequisite : ENE ( ) Experiments on fundamental laws and concepts of electrical and electronics engineering, electrical and electronic measurements. 256 The Undergraduate Bulletin

15 ENE 208 Electrical Engineering Mathematics 3 ( ) Prerequisite : MTH 101 Complex Analysis : complex number, complex function, mapping, conformal mapping, complex integral, residue integration method and applications. Fourier Transform (FT) : trigonometric Fourier series, complex Fourier series, Fourier integral, circuit analysis with FT, and spectrum analysis with FT. Laplace Transform (LT) : Existence and uniqueness LT, simple pole factors, repeated pole factors, complex pole factors, initialstate response, zero-state response, zero-input response, transient and steady-state response, impulse response, and circuit analysis with LT. Partial Differential Equation (PDE) : formulation of PDE to diffusion of electron in PN junction, and microwave waveguide, solution methods of PDE and introduction to numerical method for solving the PDE. ENE 209 Computer Applications for Electronics and Telecommunication Engineering 1 ( ) Prerequisite : none Introduce students some of the computer languages and applications that are necessary when studying and working in the field of Electronics and Telecommunication Engineering, such as, C programming language applications that help calculating and analyzing data, applications for circuit design and drawing, how to use internet for data acquisition, etc. ENE 210 Electronic Devices and Circuit Design I 3 ( ) Prerequisite : none Principle of electron tube operation, Basic semiconductor physics and P-N junction theory. Diode and zener diode characteristics and applications : wave shaping circuits, simple DC power supply and DC voltage multiplier circuit design. Bipolar junction transistors (BJT) and field effect transistors (FET) : operations, characteristics, specifications, and DC biasing techniques. Analysis and design of BJT and FET operational amplifier (opamp) : characteristics, specifications, and applications. ENE 211 Electronic Devices and Circuit Design II 3 ( ) Prerequisite : ENE 210 Analysis and design of selected electronic circuits for communications and instrumentation by using discrete and I.C. devices : theory of operations, characteristic and specification of the devices, Noise reduction in electronic circuits. Printed Circuits design techniques. The Undergraduate Bulletin

16 ENE 215 Electromechanical Energy Conversion 3 ( ) Prerequisite : ENE 104 Transformer: voltage induced in a coil, polarity of a transformer, equivalent circuit of a practical transformer, measuring transformer impedance, autotransformer, voltage regulation. Direct current generators: construction, field, armature, commutator and brushes, induced voltage separately excited generator, sheet, compound, differential compound generator, load characteristics. Direct current motors: counter emf, mechanical power and torque, armature speed control, field speed control, shunt, series and compound motor, reversing the direction of rotation. Three-phase induction motors: construction, rotating field, direction of rotation, starting characteristics of a squirrel cage motor, wound rotor motor. Three-phase alternators: Construction, Stator, Rotor Equivalent circuit of an alternator, Alternator underload, Synchronization of an alternator. Synchronous motors: Starting a synchronous motor, Motor underload, mechanical and electrical angle V- curve. Single-phase motors: construction, speed characteristic, principle of operation, capacitor-start motor, capacitor-run motor, shadedpole motor, series motor, hysteresis motor. ENE 221 Principles of Communication Systems 3 ( ) Prerequisite : none Signal classification and transformation: Fourier series and Fourier transform. Analog signal transmission and reception: AM, FM and PM. Analog to digital conversion: pulse code modulation (PCM) including sampling theory and quantization, delta modulation. Baseband digital transmission. Digital transmission via carrier modulation and demodulation: ASK, FSK, PSK. Multiplexing techniques: time division multiplexing (TDM) and frequency division multiplexing (FDM). ENE 231 Digital Circuits and Logic Design 3 ( ) Prerequisite : none Number systems and computer arithmetic, computer codes: Binary Code, BCD Code Gray Code ASCII Code, etc. Boolean algebra and truth table. Analysis and synthesis of combination logic: switching functions, canonical forms, Karnough s map, Quine-McCluskey s method, hazards, multi-level NAND-NOR Circuits. Typical combination logic functions using logic gates. Analysis and synthesis of sequential logic: asynchronous and synchronous sequential circuits. State transition diagrams, state tables, state assignments, minimization of states, flip-flop implementations. Typical sequential of logic functions using flipflops: latch, registers, shift registers counters. Logic design for sequence control applications, typical programmable logic controller functions and programming. 258 The Undergraduate Bulletin

17 ENE 240 Electrical and Electronic Measurements 3 ( ) Prerequisite : ENE 104 Basic concepts of experimental methods as regards measurement : accuracy, precision, calibrations, standard and treatment of data. Principles of operation, characteristics, as well as appropriate range extension for electrostatic, permanent magnet moving-coil, moving iron, electrodynamic induction etc. AC/DC bridges and potentiometer. Operation principles and characteristics of instruments for power measurement : phasesequence indicator, power-factor meter, single and poly-phase watt-meters, var meter and watt-hour meter. Basic principle of oscilloscope. Introduction to digital instrument : digital voltmeter, digital multimeter and counter. ENE 311 Physics of Electronic Materials and Devices I Prerequisite : ENE ( ) The crystal structure of solids and bonding. Imperfections in solids. Introduction to quantum mechanics; energy quanta, wave particle duality, the uncertainty principle, Schrodinger s wave equations. The energy band theory; metal, semiconductor and insulator, effective mass, density of state function, Fermi-Dirac distribution function, Fermi energy and intrinsic Fermi level. Doping, extrinsic semiconductor, P and N type semiconductor, degenerate and nondegenerate semiconductor. Carrier transport phenomenon, drift current density, mobility, conductivity, velocity saturation, diffusion current density, Einstein relation. The Hall effect, excess carriers generation and recombination, continuity equations, excess carrier lifetime. The P-N junction, built-in potential barrier, electrical field and space charge width, junction capacitance. The P-N junction diode. ENE 312 Electronics Engineering Laboratory 1 ( ) Prerequisite : ENE 210 Experiments on operations, characteristics and some applications of discrete electronic devices, operational amplifier and digital circuits. ENE 314 Advance Electronics Laboratory 1 ( ) Prerequisite : ENE 211, ENE 231 A laboratory cause to accompany the topic, covered in ENE 211, ENE 231. ENE 324 Communications and Telecommunications Laboratory Prerequisite : ENE ( ) Experiments on basic communication and telecommunications both systems and circuits : AM and FM modulation/demodulation, pulse modulation, digital communication, Optical communication and Microwave communication experiments. The Undergraduate Bulletin

18 ENE 325 Electromagnetic Fields and Waves 3 ( ) Prerequisite : MTH 201 Three-dimensional Vector analysis for engineers. Electrostatic fields: Coulomb s law and electric field intensity, electric flux density, Gauss s law and divergence, energy and potential, conductors, dielectrics and capacitance, Poisson and Laplace equations. Steady magnetic fields: Magnetostatic fields: Biot- Savart s laws, Ampere s circuitry law, curl and Stoke s theorem, magnetic flux density, magnetic forces, materials and inductance. Timevarying fields and maxwell s equations: Faraday s law, Maxwell s equation, retarded potentials. Uniform plane wave, motion of wave in dielectrics and conductors, skin depth, pointing vector and power of wave, incident and reflection of uniform plane waves, standing wave ratio, transmission line equation and parameters, Smith chart, waveguide. ENE 326 Electronic Communication 3 ( ) Prerequisite : ENE 221 Element of radio systems. Modulation and demodulation; AM, FM, PM. Noises and their influences in the radio systems. Radio receiver circuits; AM, FM, PM. Single sideband techniques. Frequency synthesis techniques. Communication techniques in modern radio equipment. Television. Introduction to digital communication. Spread spectrum communication. ENE 327 Random Signals and Stochastic Processes 3 ( ) Prerequisite : none Probability theory including random variables, functions of random variables (moments, distribution functions and characteristic functions), functions of multirandom variables, transformations, conditional distributions, sequence of random variables, and the central limit theorem. Stochastic processes (correlation, covariance, and stationary), ergodic processes, and spectral analysis. ENE 334 Microprocessors 3 ( ) Prerequisite : ENE 231 Introduction to digital computer system, microprocessor system and general structure, machine and instruction cycle, general bus structure, instruction flow in CPU, data flow in microprocessor, registers and counters used in microprocessor. Selected popular microprocessor architecture and instruction set, addressing mode in microprocessor. Examples of useful subroutines such as binary addition and subtraction, binary multiplication and division, BCD to binary and binary to BCD conversions, microprocessor memory, I/O instruction, I/O interrupt, parallel and serial I/O transfer method, programmable I/O interface. 260 The Undergraduate Bulletin

19 ENE 335 Digital Circuits and Microprocessor Laboratory Prerequisite : ENE 231, ENE ( ) Experiments on digital circuit design, microprocessor programming, microprocessor interfacing, and microprocessorbased systems. ENE 341 Linear Control Systems 3 ( ) Prerequisite : ENE 208 Linear automatic control systems, Open loop and closed loop systems, Mathematical models of physical systems: transfer function analysis, block diagrams, signal flow graphs, mechanical, electrical, liquid, pneumatic and thermal systems. Linearization of systems, Steady state analysis: steady state characteristics of proportional (P), integral (I) and derivative (D) Control systems. Transient response analysis: first-order, secondorder and higher order systems, Routh s stability criterion. Dynamic analysis: characteristics function, Root-locus method, frequency response method, Bode plots, Polar plots, Nyquist stability criteria, M-circles, N-circles and Nichols chart, Control system design: lead, lag and lead-lag compensation PID controllers. ENE 370 Seminar 1 ( ) Prerequisite : junior standing Introduction to reading and understand research papers by the instructors. Selecting the interesing research papers in electronic or telecommunication engineering fields to read, report and discuss in details. ENE 371 Industrial Training 2 (S/U) Prerequisite : junior standing Practical training in industry during summer for not less than six weeks. ENE 410 Physics of Electronic Materials and Devices II Prerequisite :ENE ( ) PN junction diode and limitations to ideal diode. Tunneling phenomena. Tunnel diodes. Bipolar transistors: characteristics, models and limitations. Metal-semiconductor junctions and devices. Metal-oxide-silicon systems. Junction FET devices. Magnetic properties of materials: atomic state and magnetic moment. Types of magnetic materials, domain theory and devices, Magnetic bubble. Superconductivity and its applications. Microwave devices. Laser and optoelectronics. Fabrication technology: crystal growth, fabrication processes of Integrated Circuit (IC) devices. The Undergraduate Bulletin

20 ENE 411 Electronic Product Design 3 ( ) Prerequisite :ENE 211 Electrical and electronic product standards, Noise reduction techniques (Intrinsic noises, Electromagnetic interference, Electrostatic discharged, Grounding, Contact protections, Shielding Techniques), Print circuit board design techniques for electromagnetic compatibility, Packaging design, Electromagnetic compatibility testing. ENE 412 Industrial Electronics 3 ( ) Prerequisite :ENE 210 Industrial application of various electronic circuits, Electronic heating, induction heating and dielectric heating, Transducers: photosensitive, thermoelectric, mechanical etc. Power semiconductor: single-phase rectifiers, three phase rectifiers, chopper drives, DC motor and AC motor speed control. Threephase induction motor speed control by AC inverter. Inverter design. ENE 413 Power Electronics 3 ( ) Prerequisite :none Semiconductor devices for power electronics circuits and gate driving circuits (Power diode, Power BJT, Power MOSFET, IGBT), Low-frequency rectifier and converter, Pulse Width Modulation Technique, High-frequency switching dc/dc converter and control circuits, Resonant power converter and inverter, Active power factor correction circuit, Power electronics applications. ENE 414 Audio System Design 3 ( ) Prerequisite :none Principle of sound and hearing, audio spectrum, soundreproduction devices and systems: types of microphone and amplifier, amplifier design, types of loudspeaker unit, electromechano-acoustical circuits analysis, Thiele-Small parameter, loudspeaker enclosure design, analog and digital sound recording, noise reduction, test and measurement of audio systems and basic psychoacoustic ENE 415 Avionics Systems 3 ( ) Prerequisite :ENE 326 Development of avionics, Aircraft instruments. Principles of flight control, Navigation systems, Communication Systems, Aircraft cockpit, Principles of radar. Air Traffic Control. The usage of avionics systems in both military and civil aircraft. 262 The Undergraduate Bulletin

21 ENE 416 RF Circuit Design 3 ( ) Prerequisite : ENE 326 RF amplifier parameters, RF oscillator, RF small signal amplifier and RF power amplifier, class, C, broadband RF amplifier, Matching networks and power amplifier coupling circuits. RF Power devices; BJT, FET, LD MOS Power amplifier linearization techniques. Design of RF power amplifier in HF, VHF and UHF bands. ENE 420 Telecommunication Engineering 3 ( ) Prerequisite : ENE 221, ENE 326 Broadband systems: FDM, TDM, PCM, Switched telecommunication systems: traffic theory. Digital switching concepts. Multiplexing and demultiplexing concepts. Long distance network: data transmission. Coding and Error correction methods. Digital Transmission, modulation and demodulation. Point to point radio link calculation. Telecommunication network architecture. Local area network. ISDN and SDH network. ENE 421 Communication Networks 3 ( ) Prerequisite : ENE 334 Fundamental concepts in the design and analysis of computer communication networks, the OSI layered network architecture, physical interface. Data link protocol, routing, flow control, multiaccess techniques, transport layer protocols, Case studies of some selected network architecture, public data networks and local area networks. Basic concepts in the modeling and performance analysis of computer networks. ENE 422 Data Communications 3 ( ) Prerequisite : ENE 221 Distributor system architectures, data transmission link level protocols, electrical interface, terminal based network, computer to computer communication protocols, public data networks and local area networks, Network configuration. ENE 423 Optical Communications 3 ( ) Prerequisite : ENE 221 Introduction to optical communication system. Light source characteristics; LED, IRLED, LASER etc. Characteristics of optical media of transmission. Optical communication devices such as optical switches, optical attenuators etc. Light transmission in space and in optical fiber. Losses in fiber link fiber link budget calculation. The Undergraduate Bulletin

22 ENE 424 Mobile Communication Systems 3 ( ) Prerequisite : ENE 221 Introduction to mobile communications. Cellular concepts : celldesign, hand-off, traffic intensity. Radio propagation in large scale and small scale. Maltipath and fadery channel, diversity reception, RAKE receiver. Digital modulation and multiple access technigres. Overviews of exishiry and emerging wireless mobile communication systems. ENE 425 CDMA Systems for Wireless Communication 3 ( ) Prerequisite : ENE 327 Basics of mobile/cellular communication systems. propagation, fading models, diversity technique, link margins, modulation and performance analysis, multipath problem, multiplexing and multiple access technologies in mobile/cellular communication systems (FDMA, TDMA and CDMA), backgrounds of thirdgeneration systems and principles of CDMA systems, spread spectrum techniques, IS-95 architecture ENE 426 Introduction to Radar Systems 3 ( ) Prerequisite : ENE 327 Basics of Radio Direction and Ranging. Radar frequency Range Equations. Radar Cross Section. Clutter, Noises and Jamming. Basic Elements of Radar Systems : Antenna, Transmitter, Receiver, Signal Processor and display. Continuous Wave, Frequency Modulated Continuous Wave, Pulse and Pulse Doppler Radar. Target Tracking techniques such as Monopulse Sequential Lobing and Conical scanning. Applications of Radar in the field of Military and non Military. ENE 427 Satellite Communications 3 ( ) Prerequisite : ENE 221 Orbital aspects of satellite communication, Spacecraft and its related systems, Satellite link design, Modulation and multiplexing techniques for satellite links, Multiple access techniques; FDMA, TDMA. Spread-Spectrum technique. Forward error correction code for digital satellite links. Earth station technology. Satellite TVRO network. ENE 428 Microwave Engineering 3 ( ) Prerequisite : ENE 325 Review of Maxwell s equations and boundary condition for electromagnetic fields. Guided electromagnetic wave: wave equations, solutions, wave guides and their components. Microwave generation, amplification and measurement. Antenna and propagation of radio waves. Microwave communication systems. 264 The Undergraduate Bulletin

23 ENE 429 Antenna and Transmission Line Theory 3 ( ) Prerequisite : ENE 325 Uniform plane wave propagation, travelling wave. The lossless and lossy transmission line, waveguides and cavities. Fundamental parameters of antennas, radiation integrals and auxiliary potential, linear wire antenna, loop antenna. Arrays: planar and circular. Self and mutual impedance of linear elements and arrays and finite diameter effects. Broadband dipoles and matching techniques. Broadband antennas. ENE 430 Microprocessor-based System Design 3 ( ) Prerequisite : ENE 334 Microprocessor-memory interfacing, memory timing, memory address mapping, memory decoding, DMA, Microprocessor I/O interface, multiple I/O Interrupt, standard I/O interfacing, peripheral interfacing, digital interfacing design, analog interfacing design, industrial interfacing techniques. Multimicroprocessor systems and buses. Microprocessor software development tools: assembler, interpreter, compiler concepts, functions and uses. Microprocessor design techniques and consideration. ENE 431 Digital Computer System Design 3 ( ) Prerequisite : ENE 231 How to design a small digital computer. Basic microprocessor organization, control unit design, instruction sequencing, design of a simple microprogrammed control unit; memory devices, I/O devices, ALU design and logic design. ENE 432 Digital Function Analysis 3 ( ) Prerequisite : ENE 231 Theoretical aspects of digital systems from a mathematical perspective. The theories of switching, automata and formal languages are developed as the basis for the discussion of the theories of computability and computational complexity. Analysis of the most common functions that occur in digital systems including computer arithmetic, linear machines. Models of physical structures are related to the fundamental theorems in the theory of complexity to establish and analytic basic for cost/performance tradeoffs. Intractable and NP-complete problems are addressed in the context of digital system development and optimization. ENE 433 VLSI Technology 3 ( ) Prerequisite : ENE 210 Review of VLSI technology, Integrated circuit technology, basic electronics and processes, introduction to VLSI modeling and processing, circuit techniques, subsystem of VLSI. CAD in VLSI. The Undergraduate Bulletin

24 ENE 434 Digital System Design and Implementation 3 ( ) Prerequisite : ENE 231 Introduction to digital design, implementation and methodology. Application domains of digital systems, problems and techniques in digital designs. Hardware Description Languages (HDL) and its role in digital design. Simulation and verification of the designs. Field Programmable Gate Array (FPGA): architecture, implementation and related problems and techniques. Hardware/software (HW/SW) co-design. Seminar and discussions on hot topics related to digital system designs and implementations. ENE 440 Process Control and Instrumentation 3 ( ) Prerequisite : ENE 240 Concept and definition of process measurement and control, temperature measurement, Pressure measurement, Flow measurement, Level measurement, Analytical measurement, Electromagnetic radiation measurement, standard symbols for process instrumentation drafting, process control action, electronic and pneumatic controller, actuator, maintenance procedure. ENE 441 Industrial Computer Systems 3 ( ) Prerequisite : ENE 334 Fundamental of digital Computer, Classification of computer, buses structure. Processing unit, control unit, main memory organization, input-output organization, Computer peripherals and workstations. Computer standard code, operation system and system software. Industrial computer control system. Distributed computer control system, PLC, SCADA. Data communication: data transmission, communications interfacing, and transmission media. Introduction to computer network, LAN, Industrial data communication, protocol such as MAP, YOP etc. ENE 442 Robot Engineering 3 ( ) Prerequisite : ENE 341 Robotics manipulation: direct kinematics, inverse kinematics, workspace analysis and trajectory planning, manipulator dynamics. Robot Control, robot vision, tasks planing. ENE 460 Digital Signal Processing (DSP) 3 ( ) Prerequisite : ENE 208 Digital representation of analog signals. Freqnency domain and Z-transforms of digital signals and systems design of digital systems; Discrete Fourier Transform (DFT), fast Fourier transform algorithm, IIR and FIR filter design technignes. 266 The Undergraduate Bulletin

25 ENE 461 Introduction to Digital Image Processing 3 ( ) Prerequisite : none Digital representation of images. Two-dimensional filtering, Image analysis as well as basic image processing operations; histogram, convolution kernels, Spatial filtering, Morphology. ENE 462 information Theory 3 ( ) Prerequisite : ENE 327 Definition and theories of information measurement, mutual information measurement, technigues for compression of sourse data, rate distortion theory, channel models, channel capacity, error control block codes, convolutional codes, trellis coded modulation. ENE 463 Software Engineering 3 ( ) Prerequisite : CPE 100 Software life cycle. Project planing and management. Design tools and techniques, SW debugging, SW testing, software reliability, errors and estimating, cost estimation, maintenance. ENE 475 Electronic and Telecommunication Engineering Project Study 1 ( ) Prerequisite : ENE 370 Students work in-groups under the supervision of faculty members. Each group is encouraged to develop and design a systematic method of investigation in solving electronic engineering problems, which require theoretical background in Electronics ENE 476 Electronic and Telecommunication Engineering Project Prerequisite : ENE ( ) Continuation and completion of project assigned in ENE 435 ENE 490 Special Topics in Electrical Engineering 3 ( ) Prerequisite : none Contemporary topics at the advanced undergraduate elective level. Faculty presents advanced elective topics not included in the established curriculum. The Undergraduate Bulletin

26 For Non- Electronic & Telecommunication Engineering Student ENE 100 Electrotechnology (Electronics) 3 ( ) Prerequisite : none Conduction in metals and semiconductor, semiconductor devices characteristic, transistor circuit, operational dmplifier operational applications. Digital circuits, basic logic gates, Boolean algebra, combination and sequential circuits, relay sequential circuits. Power electronics, phase controllatrectifier circuits and inotor speed controls. ENE 101 Electrotechnology (Electronics) Laboratory 1 ( ) Prerequisite : ENE 100 A laboratory courses to accompany the topics covered in ENE 100. ENE 103 Electrotechnology I (Electronics) 3 ( ) Prerequisite : none Conduction in metals and semiconductor, semiconductor devices characteristic, transistor circuit, operational dmplifier operational applications. Digital circuits, basic logic gates, Boolean algebra, combination and sequential circuits, relay sequential circuits. ENE 212 Electronic Circuits and Devices 3 ( ) Prerequisite : none Operational Amplifiers : Integrated-Circuit Operational Amplifier, Simplified Op-Amp Model, Ideal Op-Amp Approximation, Linear Op-Amp Circuits, Nonlinear Op-Amp Circuits, Nonideal Properties of Operational-Amplifiers. Nonlinear Circuits Elements : Basic Properties of Nonlinear Elements, Semiconductor Material, PN junction Diode, Zener Diode, Schottky Diode, Varactor Diode, Tunnel Diode, Metal-Oxide Varistor. Single Processing and Conditioning with Two- Terminal Nonlinear Devices : Transfer Characteristic, Clipping and Limiting Circuits, Rectifier Circuits, Power-Supply Circuits, Precision Rectifiers. Three-Terminal Devices : Field Effect Transistors, Bipolar Junction Transistors, Photonic Devices, Temperature Dependence of Devices, Power Limitation of Devices Operation. Basic Circuit Containing Three-Terminal Devices : Inverter Configuration, Voltage Follower Configuration, Current Follower Configuration, Operation in the Digital Regime. Analog Amplification : Active and Passive Circuits, Biasing, Small-Signal Modeling of Analog Circuits, Two-Port Amplifier Representation 268 The Undergraduate Bulletin

27 ENE 232 Digital Circuit and Logic Design 2 ( ) Prerequisite : PHY 103, PHY 191 Electrical units and definitions : Current, voltage, power, energy, resistor, capacitor, inductor and independent source. Lumped circuit and Kirchhoff s laws. Transient analysis by means of classical method. Y- transformation. Network analysis : mesh current, node voltage, Thevinin s and Norton s theorems. Network theorems : superposition, reciprocity, maximum power transfer. Sinusoidal analysis, complex impedance, phasor, steady-state AC analysis. Power and power factor correction. Three phase systems, Network circuits. ENE 233 Digital Circuit and Logic Design Laboratory 1 ( ) Prerequisite : ENE 232 Practices in Digital circuit and Logic Design Laboratory covering for ENE 232. The Undergraduate Bulletin